CN203920400U - Case in supporting construction - Google Patents

Abstract

The utility model relates to a kind of container (2) device in supporting construction (1).For container (2) is fixed in the recess of supporting construction (1), described container (2) has the moulding part (4) protruding from the side, described moulding part embeds rigging position through recess, and is engaged on the top position (5) of recess.To this, container (2) declines along the translation of vertical engagement axis by its moulding part (4).The kayser projection (8) being connected with moulding part (4) integral type is fastening for container (2), and thus container (2) is fixed on rigging position.To this, the strip dog (9) of kayser projection (8) overcomes elastic-restoring force and is deflected when assembling, thereby make this strip dog when arriving rigging position, automatically embed in the other recess of supporting construction (1), and the edge (11) of interlock supporting construction (1), like this in order to stop container (2) to move along contrary the less desirable of direction of engagement with respect to supporting construction (1).

Description

Case in supporting construction

Technical field

The utility model relates to a kind of case in supporting construction, case especially using as cooling water expansion tank extra feed tank of being positioned at, this supporting mechanism has recess, wherein, described container utilizes at least one moulding part to be positioned on rigging position by the edge of recess described in the motion of translation interlock along direction of engagement, and utilizes at least one kayser projection to be fixed on rigging position.

Background technology

This device and specific fixing means for this reason have for example been described in document DE102007020928A1, the document relates to a kind of supporting construction, utilizes this supporting construction motor vehicle assembly, for example refrigerant compensation box can be fixed on the vehicle body or other members of automobile.In order to realize reliable fix of described assembly on all three direction in spaces without screw in the situation that, this supporting construction have fixing section and with the backstop section of its formation drift angle, utilize described fixedly section assembly can be fixed on automobile, and assembly can be positioned on backstop section.For example by the backstop section of horizontal arrangement, had receiving member, the tenon of assembly can vertically be guided in described receiving member, and wherein, described tenon can be along the longitudinal movement in a predetermined direction under importing state in receiving member.Described fixedly section has receiving member on the one hand, and when assembly moves, the contact pin of assembly can be guided in described receiving member along preassigned direction; And have on the other hand support, described support is designed to be connected with the insurance module formation form fit of attaching troops to a unit in assembly.Herein, the assembling of motor vehicle assembly completes like this, in the first step by this assembly along z to reduction, and in second step along x to promotion; In optional the 3rd step, by means of fastener auxiliary, that be designed to pliers, support is connected and is fixed with the form fit of insurance module.

In document DE10343697A1, describe a kind of bracing or strutting arrangement, utilized described bracing or strutting arrangement spherical compensation box can be fixed on the vehicle body of automobile.Described spherical compensation box has projection at its bottom section, and described projection embeds in the opening of bracing or strutting arrangement.Described bearing set has at least one projection from the side, and described projection embeds in the corresponding opening of compensation box.Stopping element is fixed on compensation box in its top area.

Loaded down with trivial details assembling and dismounting is in the prior art proved to be disadvantageous, as the supplementary above-mentioned assembly and disassembly of direction of engagement are needed all the time other be different from the auxiliary motion of direction of engagement, for example, perpendicular to movement or the swing of direction of engagement, container could be fixed on rigging position.

Utility model content

Therefore,, based on above background, technical problem to be solved in the utility model is how to provide a kind of device to come obviously to complete simplifiedly assembling and dismounting.

Described technical matters by being a kind ofly positioned at case in supporting construction, be especially used as the case that cooling water expansion tank extra feed tank uses and solve, this supporting construction has recess, wherein, described container utilizes at least one moulding part to be positioned on rigging position by the edge of the motion of translation occlusion notch along direction of engagement, and utilize at least one kayser projection to be fixed on rigging position, it is characterized in that, described moulding part is connected by integral type with kayser projection or is combined into one.According to the utility model, be also provided with device, wherein, moulding part is connected by integral type with kayser projection.By the moulded parts that connects into of moulding part and integral type or single type has significantly been simplified to assembling, because this is only needed utilize unique subsequently engagement movement to position whole moulded parts.Compared with prior art, this location has been saved and multiplely on each interval position, has been formed the element that kayser connects, and complicated engagement movement in a plurality of planes subsequently.Thus, avoided assembly error simultaneously and reduced man-hour.In addition, realized the simple and visual control rapidly of device to obtaining like this, thereby simplified quality control.

Herein, design of the present utility model is proved practical especially, and wherein, described moulding part can move with unique degree of freedom in recess, and engagement movement can be limited on the axial single shaft motion of translation of the vertical z in preferred edge thus.Thus, described joint technology is significantly simplified, because moulding part enters in recess in reference position, the reference position that can know identification from assembly crewman, container must be only vertically to decline, until reach and the corresponding final position of rigging position.In addition, can also simplify the control to rigging position by suitable design or mark.Certainly, the utility model is not limited to vertical engagement direction.Yet when rigging position is below reference position, the single shaft direction of engagement having departed from is also considered to favourable.

In contrast, in practice particularly importantly, recess extends substantially on vertical surface, and moulding part holds the top region of recess, in order to the action direction by gravity, in more excellent mode, ensures direction of engagement.Especially in practice when kayser projection lost efficacy, for example, when damaged, container even also remains on its rigging position.Can further improve safety in operation thus.

For example by moulding part or kayser shape for lugs, be contained in ordinatedly in recess separately and can effectively avoid the skew of less desirable side or deflection.Preferably, described recess has lateral edge position, in order to avoid the motion perpendicular to direction of engagement as the guide member of moulding part.That is to say, described recess, not only by section bar or by making with the plate construction of horizontal-extending seamed edge, is also designed to perforation, for example opening, and it has blocked side skew thus with the side edge region of horizontal and vertical.Therefore do not need extra side gauge element or stop surface.

From device well known in the prior art, by a series of multiple direction of engagement, container is fixed with respect to supporting construction, to overcome less desirable skew.With contrary order, also along the counter movement dismounting of each direction of engagement.According to particularly preferred embodiment, kayser projection stops container moving with respect to the supporting construction contrary direction of engagement in edge on rigging position.Owing to the interlock of kayser projection must being untied in order to dismantle, and almost stopped the unexpected of container, throw off.In addition, compared with prior art, the reliable location of container does not complete by the multiple direction of engagement of series of complex, and according to the utility model by separated engagement movement on the one hand and on the other hand fixedly rigging position carry out.

Described kayser projection can be fixed in recess manually or automatically.In addition, described supporting construction can have position, for example spring leaf of elastically deformable, and described spring leaf regularly in recess, and is avoided the motion contrary with direction of engagement by kayser projection.To this, especially meaningfully, wherein, kayser projection can overcome elastic-restoring force and deform in design of the present utility model, and when reaching rigging position interlock supporting construction.By kayser projection, when assembling procedure starts, deform, be particularly offset, and when reaching rigging position interlock supporting construction being locked thus under the effect of elastic-restoring force voluntarily, make not need extra procedure of processing just to realize assembler controlled the fixing of rigging position.

In simple design plan, the material webs that can protrude by exposure forms the recess in supporting construction, and described material webs is held from above by moulding part, and is held from down by kayser projection.To this, flexible program of the present utility model is meaningful especially, and wherein, described kayser projection can be fixed in the second recess of supporting construction.Each recess by supporting construction holds moulding part to sealing and form fit on the one hand from the side, and on the other hand from the side sealing and shape hold in locking manner kayser projection, thus, in simple especially mode, avoided the less desirable skew of container or deflection.

Kayser projection is mainly used in locking engagement movement, and preferably can on the cross-sectional plane perpendicular to direction of engagement, move thus.To this, this design plan of the present utility model is also meaningful especially, wherein, moulding part and kayser projection are resisted against opposed to each other each other on the back side at grade of container dorsad of supporting construction on rigging position, by moulding part and kayser projection from same of opposed side interlock, not only realized center aligning, and improved from opposite side the power that is acted on generation by interlock.In addition,, when the position of moulding part and kayser projection interlock supporting construction is separately toward each other time, container is almost seamlessly remained on desired rigging position thus.

Container reliably and is fixed by kayser projection on the other hand movably by moulding part on the one hand.In addition, verified have especially practice significance be, container is provided with at least one with respect to moulding part level and/or isolated guiding tenon vertically, and described guiding tenon is embedded in receiving member on rigging position, and thus for stable and auxiliary load bearing.

Described guiding tenon can absorb major part according to difformity and act on gravity and the power on container, for the damage that so protection moulding part is not transshipped.Preferably, described guiding tenon is parallel to direction of engagement layout by its major length.

Kayser projection can be for example be thrown off from occlusal position by means of promoting sliding part, and described sliding part is resisted against on the interlock position of kayser projection along supporting construction and the opposing back side of container.On occlusal position, container can move along contrary direction of engagement.To this, embodiment of the present utility model especially simply, the receiving member for instrument that wherein, that kayser projection has is opposing with supporting construction, be especially designed to pocketed structure.Therefore the accessibility for the supporting construction back side is dispensable, thereby because of the good accessibility for supporting construction front, the dismounting of container is significantly simplified.By the instrument that is designed to leverage tool is inserted in receiving member, and swing around the areal of support that deviates from receiving member, make kayser projection with the mode generation elastic deformation of expectation, and strengthen thus interlock.Described receiving member forms for example kayser projection herein, and is provided with opening, and instrument can be inserted in described opening.

Preferably, described receiving member has and the opposed stop surface of kayser projection and the areal of support for leverage tool opened with respect to this stop surface perpendicular separation, and described leverage tool can be guided between supporting construction and container.Described leverage tool can be for example commercially available screwdriver.

Described second technical matters is how to provide container to be assembled in the method in supporting construction, wherein, described container moves to rigging position along direction of engagement, on this position, the recess of at least one moulding part interlock supporting structure, and be fixed by kayser projection, according to the purpose of this utility model, complete like this,, described moulding part moves along the direction of engagement of single shaft with respect to recess, until the edge of kayser projection interlock supporting construction, and stop thus moving along contrary direction of engagement.Thus, described engaging process is obviously simplified, because no longer need to implement a plurality of motions that are connected each other, in order to container is fixed on rigging position.Yet described engaging process is not limited to the motion of translation along single axis, by kayser projection, the self-locked in supporting construction is blocked described motion of translation.

Herein, be proved to be and meet especially object, kayser projection deforms because the engagement movement of moulding part overcomes elastic-restoring force, and when reaching rigging position correcting action, and interlock supporting construction.By kayser projection, first by moulding part is guided in recess elastic deformation is occurred, and on rigging position, embed voluntarily subsequently in corresponding perforation, thus, saved extra for realizing the method step to the interlock of kayser projection.

What concerning unclamping connection, have especially practice significance is, by means of instrument, make kayser projection generation elastic deformation, its mode is, by the instrument receiving member opposing with supporting construction with kayser projection is connected, and instrument is swung around areal of support, thereby can from front, start to carry out by instrument elastic deformation.

Accompanying drawing explanation

The utility model allows a large amount of embodiments.In order further to set forth its groundwork, shown in the drawings of the utility model some of them embodiment, and be described below.In the accompanying drawings,

Fig. 1 shows the block diagram of supporting construction and container disposed thereon;

Fig. 2 shows the block diagram that is fixed on the container in supporting construction;

Fig. 3 shows the birds-eye view of supporting construction and container fixed thereon;

Fig. 4 shows the cross sectional side view that is fixed on the container in supporting construction;

Fig. 5 shows the partial enlarged drawing according to Fig. 4, and

Fig. 6-8 show other three-dimensional detail view of container.

The specific embodiment

In Fig. 1, in block diagram mode, show the container 2 being disposed in supporting construction 1, this supporting mechanism 1 is designed to sheet material part.For container 2 being fixed in the recess 3 of supporting construction 1, container 2 has the moulding part 4 protruding from the side, on the rigging position of described moulding part in seeing Fig. 4 and Fig. 5, embeds recess 3, and the top edge portion 5 of occlusion notch 3.To this, described container 2 utilizes its moulding part 4 decline or insert along the translation in direction of engagement 6 of vertical engages axle, until reach at the predetermined rigging position shown in Fig. 2.Although described container 2 can be fixed reliably by the moulding part 4 in single embedding recess 3, yet go out as shown in Figure 3 especially, two moulding parts 4 that are spaced apart from each other have still improved conductible confining force, described two moulding parts can be fixed according to identical action principle, yet this are not needed to have consistent size.In addition, on container 2, also arranged guiding tenon 7.

As being further shown specifically in Figure 4 and 5, the main supported structure 1 of confining force separately two moulding parts 4 in recess 3 absorbs, this recess has also formed for the guide member of moulding part 4 separately simultaneously, in order to avoid perpendicular to the motion of direction of engagement and auxiliarily confining force to be absorbed, in Fig. 2, guiding tenon 7 is disposed on rigging position, and described guiding tenon is inserted in guiding tenon receiving member 18 and is maintained at this place.Described guiding tenon 7 can also be arranged on guiding tenon receiving member 18, and is conducive to thus absorb confining force.The kayser projection 8 being connected with moulding part 4 integral types is used to fastening container 2 and thus container 2 is fixed on rigging position.To this, the strip dog 9 of kayser projection 8 overcomes elastic-restoring force and deflects in assembling process, thereby this strip dog is embedded in voluntarily in other recesses 10 of the supporting construction 1 shown in Fig. 1 when reaching rigging position, and the edge 11 of this supporting construction 1 of interlock, like this in order to stop less desirable container 2 moving with respect to the supporting construction 1 contrary direction of engagement 6 in edge.

Described moulding part 4 and kayser projection 8 abut on the opposing back side at grade 12 of supporting construction 1 and container 2 on rigging position.For the elastic deformation of kayser projection 8 by again unclamped, kayser projection 8 has the pocketed receiving member 13 of the instrument 14 for only illustrating in a schematic way, in order to conduct lever force.By by the instrument in receiving member 13 14 with respect to the opposing stop surface 15 of receiving member 13 and strip dog 9 and place with respect to the areal of support 16 of opening with this stop surface perpendicular separation simultaneously, and swing along the direction of arrow 17, make strip dog 9 separated with edge 11, and remove fixing container 2.So described container 2 can be without barrier moves and in supporting construction 1 separation along contrary direction of engagement 6.

Fig. 6 to 8 shows other three-dimensional detail drawings of container 2, wherein shows moulding part 4, kayser projection 8, strip dog 9 and guiding tenon 7.In addition, also show elasticity position 19, described elasticity position can utilize unshowned instrument 14 herein to deform, and uses so that strip dog 9 moves backward.Described elasticity position 19 can be by material selection and/or step structure 20 and springiness.Can also position 21 be designed to by the selection of material elastomeric, utilize thus unshowned instrument 14 herein to make strip dog 9 motions.In can also material identical situation, by the thickness of material, make the elasticity at position 19 and/or position 20.Described stop axle journal 7 is designed to star.Described star configuration provides high-mechanic performance and failure-free persistence in the situation that of low material cost.

List of numerals

1 supporting construction

2 containers

3 recesses

4 moulding parts

5 edges

6 direction of engagement

7 guiding tenons

8 kayser projections

9 strip dogs

10 analyze

11 edges

12

13 receiving members

14 instruments

15 stop surfaces

16 areal of supports

17 directions of arrow

18 guiding tenon receiving members

19 elasticity positions

20 step structures

21 elasticity positions

Claims (8)

1. one kind is placed in device in supporting construction (1), that be especially used as the container (2) of cooling water expansion tank extra feed tank, this supporting construction (1) has recess (3,10), wherein, described container (2) utilizes at least one moulding part (4) to be positioned on rigging position by the edge (5) of recess (3) described in the motion of translation interlock along direction of engagement (6), and utilize at least one kayser projection (8) to be fixed, it is characterized in that described moulding part (4) and kayser projection (8) integral type combination.

2. device according to claim 1, is characterized in that, described moulding part (4) can be movable with unique degree of freedom in recess (3).

3. device according to claim 1 and 2, is characterized in that, described recess (3) extends substantially on vertical surface, and moulding part (4) holds the top position (5) of recess (3).

4. device according to claim 1, is characterized in that, described kayser projection (8) has stoped container (2) motion along contrary direction of engagement (6) with respect to supporting construction (2) on rigging position.

5. device according to claim 1, is characterized in that, described kayser projection (8) can overcome elastic-restoring force and deform, and when reaching rigging position interlock supporting construction (1).

6. device according to claim 1, it is characterized in that, described moulding part (4) and kayser projection (8) are resisted against on the face at grade (12) of container dorsad (2) of supporting construction (1) on rigging position opposite each otherly.

7. device according to claim 1, is characterized in that, the position of described moulding part (4) and kayser projection (8) difference interlock supporting construction (1) toward each other.

8. device according to claim 1, is characterized in that, the receiving member for instrument (13) that described kayser projection (8) has is opposing with supporting construction (1), be designed to pocketed structure especially.